Method for preparing supported catalyst for preparing cyclopentanone with furfural through hydrogenation
A supported catalyst and a technology for preparing cyclopentanone, applied in chemical instruments and methods, metal/metal oxide/metal hydroxide catalysts, physical/chemical process catalysts, etc., can solve the problems of increasing catalyst costs and high prices , to achieve the effect of improving industrial production efficiency, improving quality, and preparing a wide range of raw materials
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Embodiment 1
[0022] (1) Catalyst preparation process:
[0023] 1) Accurately weigh 9.0g of carbon nanotubes and place them in 180ml of concentrated nitric acid to disperse them evenly and form a suspension;
[0024] 2) Reflux and acidify the suspension in the above step 1) at 90°C for 48 hours, wash with water until neutral, centrifuge, and dry at 90°C to obtain a cylindrical solid;
[0025] 3) Grind the solid in the above step 2) into 80-120 mesh particles, accurately weigh 5.6g of the solid particle, and dissolve it in 200ml of deionized water to form a suspension;
[0026] 4) Weigh Cu(NO 3 ) 2 ·3H 2 O2.5g, dissolved in 50ml deionized water, then at room temperature and under stirring conditions, simultaneously dropwise add the above metal salt solution and ammonia solution with a concentration of 1:1 to the above suspension to pH=8-10, dropwise add The time is about 30 minutes, and the stirring is continued for 4 hours at room temperature to age it;
[0027] 5) Suction filter and w...
Embodiment 2
[0032] (1) Catalyst preparation process:
[0033] 1) Accurately weigh 9.0g of carbon nanotubes and place them in 90ml of concentrated nitric acid to disperse them evenly and form a suspension;
[0034] 2) Reflux and acidify the suspension in the above step 1) at 120°C for 24 hours, wash with water until neutral, centrifuge, and dry at 120°C to obtain a cylindrical solid;
[0035] 3) Grind the solid in the above step 2) into 80-120 mesh particles, accurately weigh 5.6g of the solid particle, and dissolve it in 150ml deionized water to form a suspension;
[0036] 4) Weigh Cu(NO 3 ) 2 ·3H 2 O2.5g, Ni(NO 3 ) 2 ·6H 2 03.0g, be dissolved in 50ml deionized water, then at room temperature, under stirring condition, dropwise add above-mentioned metal salt solution and mol ratio simultaneously in above-mentioned suspension liquid and be sodium hydroxide: ammoniacal liquor=1:1, mass total concentration is 40% of the solution to pH=8-10, the dropwise addition time is about 30min, c...
Embodiment 3
[0042] (1) Catalyst preparation process:
[0043] 1) Accurately weigh 9.0g of carbon nanotubes and place them in 150ml of concentrated nitric acid to disperse them evenly and form a suspension;
[0044] 2) Reflux and acidify the suspension in the above step 1) at 110°C for 36 hours, wash with water until neutral, centrifuge, and dry at 110°C to obtain a cylindrical solid;
[0045] 3) Grind the solid in the above step 2) into 80-120 mesh particles, accurately weigh 5.6g of the solid particle, and dissolve it in 100ml deionized water to form a suspension;
[0046] 4) Weigh Cu(NO 3 ) 2 ·3H 2 O1.2g, Ni(NO 3 ) 2 ·6H2 O3.0g, Mg(NO 3 ) 2 ·6H 2 O2.6g, be dissolved in 50ml deionized water, then at room temperature, under stirring condition, dropwise add above-mentioned metal salt solution and molar ratio to sodium hydroxide:sodium carbonate=2:1 simultaneously in above-mentioned suspension liquid, total mass concentration For 35% solution to pH=8-10, dropwise adding time is abo...
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